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Hansen, Anne S.; Bhagde, Trisha; Qian, Yujie; Cavazos, Alyssa; Huchmala, Rachel M.; Boyer, Mark A.; Gavin-Hanner, Coire F.; Klippenstein, Stephen J.; McCoy, Anne B.; Lester, Marsha I. (, The Journal of Chemical Physics)
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Caravan, Rebecca L.; Vansco, Michael F.; Lester, Marsha I. (, Communications Chemistry)null (Ed.)
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Hansen, Anne S.; Bhagde, Trisha; Moore, III, Kevin B.; Moberg, Daniel R.; Jasper, Ahren W.; Georgievskii, Yuri; Vansco, Michael F.; Klippenstein, Stephen J.; Lester, Marsha I. (, Science)A prototypical hydroperoxyalkyl radical (•QOOH) intermediate, transiently formed in the oxidation of volatile organic compounds, was directly observed through its infrared fingerprint and energy-dependent unimolecular decay to hydroxyl radical and cyclic ether products. Direct time-domain measurements of •QOOH unimolecular dissociation rates over a wide range of energies were found to be in accord with those predicted theoretically using state-of-the-art electronic structure characterizations of the transition state barrier region. Unimolecular decay was enhanced by substantial heavy-atom tunneling involving O-O elongation and C-C-O angle contraction along the reaction pathway. Master equation modeling yielded a fully a priori prediction of the pressure-dependent thermal unimolecular dissociation rates for the •QOOH intermediate—again increased by heavy-atom tunneling—which are required for global models of atmospheric and combustion chemistry.more » « less
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Hansen, Anne S.; Huchmala, Rachel M.; Vogt, Emil; Boyer, Mark A.; Bhagde, Trisha; Vansco, Michael F.; Jensen, Casper V.; Kjærsgaard, Alexander; Kjaergaard, Henrik G.; McCoy, Anne B.; et al (, The Journal of Chemical Physics)
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Vogt, Emil; Huchmala, Rachel M.; Jensen, Casper V.; Boyer, Mark A.; Wallberg, Jens; Hansen, Anne S.; Kjærsgaard, Alexander; Lester, Marsha I.; McCoy, Anne B.; Kjaergaard, Henrik G. (, The Journal of Chemical Physics)
